Detection by Askaryan Radio Array holds promise for future research into sources, nature of cosmic rays and neutrinos ...

There may be an ultraheavy explanation for the mystery surrounding the origins of the highest-energy particles ever observed.

A century after their discovery, cosmic rays—particles of extreme energy originating from the far reaches of the ...

The LHAASO observatory has detected gamma rays above 100 TeV from a gamma-ray binary for the first time, challenging current ...

Cosmic rays are primarily composed of protons, but also of helium, carbon, oxygen, and iron nuclei. © Chinese Academy of ...

A detector deep beneath the frozen southern continent has obtained first evidence of a rare cosmic phenomenon.

New cosmic ray theory: Researchers suggest ultraheavy atomic nuclei may explain the origins of the highest-energy cosmic rays ever detected. Why it matters: Ultraheavy nuclei could survive longer ...

New analyses by the IceCube observatory could help scientists understand where neutrinos form and what is producing them ...

A dead star accelerates protons to extreme speeds, shedding light on the origin of the most energetic cosmic rays.

New cosmic ray clue: Scientists propose that ultraheavy nuclei could explain how the most energetic cosmic rays reach Earth. Survival advantage: Ultraheavy nuclei lose energy more slowly in space, ...

Cosmic rays (CRs) are energetic particles traveling through space at speeds close to that of light. They consist of atomic nuclei, electrons, positrons, high-energy gamma rays, and neutrinos, and are ...